Abstract
BackgroundBmi1 (B lymphoma Mo-MLV insertion region 1 homolog) contributes to human tumorigenesis via epigenetic transcriptional silencing and represents a novel therapeutic target with great potentials. Here we sought to determine the therapeutic efficiency of PTC-209, a potent and selective Bmi1 inhibitor, in head neck squamous cell carcinoma (HNSCC) cells and a HNSCC xenograft model.MethodsThe mutation pattern, mRNA level of Bmi1 in HNSCC and its associations with clinicopathological parameters were determined through comprehensive data mining and interrogation using publicly available databases GENT, cBioPortal, Oncomine and TCGA. The PTC-209, a selective and potent Bmi1 inhibitor, was exploited and its effect on Bmi1 expression was measured in two HNSCC cell lines Cal27 and FaDu. The phenotypical changes of HNSCC cells were observed upon PTC-209 treatment in vitro. Moreover, the therapeutic effects of PTC-209 for HNSCC were determined in a xenograft animal model.ResultsThrough comprehensive data mining and interrogation, we found that Bmi1 mRNA was frequently overexpressed in a subset of HNSCC samples. Our data revealed that PTC-209 robustly reduced the expression of Bmi1 in Cal27 and FaDu cells presumably by post-transcriptional repression and ubiquitin-proteasomal degradation. PTC-209 treatment resulted in impaired cell proliferation, G1-phase cell cycle arrest, compromised migration and invasiveness, and increased cell apoptosis and chemosensitivity to 5-FU and cisplatin in vitro. Moreover, PTC-209 exposure reduced colony formation, tumorsphere formation and the percentage of ALDH1+ subpopulation in both Cal27 and FaDu cells. Importantly, in vivo PTC-209 administration significantly reduced tumor growth in a HNSCC xenograft model probably by Bmi1 inhibition and impaired cell proliferation.ConclusionsOur findings indicate that pharmacological inhibition of Bmi1 is a novel therapeutic strategy for HNSCC patients, especially with those with aberrant Bmi1 overexpression.
Highlights
Bmi1 (B lymphoma Mo-MLV insertion region 1 homolog) contributes to human tumorigenesis via epigenetic transcriptional silencing and represents a novel therapeutic target with great potentials
Bmi1 mRNA is overexpressed in a subset of head neck squamous cell carcinoma (HNSCC) samples Our previous studies and others have indicated that Bmi1 is aberrantly overexpressed in oral tongue cancer and HNSCC samples with both diagnostic and prognostic values [9, 15, 20, 25]
Interrogation of TCGA HNSCC dataset revealed that the abundance of Bmi1 mRNA in HNSCC samples (502 cases) was comparable to normal epithelial (44 cases)
Summary
Bmi (B lymphoma Mo-MLV insertion region 1 homolog) contributes to human tumorigenesis via epigenetic transcriptional silencing and represents a novel therapeutic target with great potentials. Bmi plays critical and indispensable roles in governing self-renewal capacity of normal and malignant cancer stem cells (CSCs) which the latter has been increasingly recognized to largely responsible for cancer initiation, therapeutic resistance, disease relapse and metastatic dissemination [8, 16,17,18]. Targeting Bmi with a selective small-molecule inhibitor (PTC-209) resulted in loss of colorectal CSCs and caused long-term, irreversible impairment of tumor progression [12, 21, 22] These findings support the notion that chemical targeting Bmi might be an attractive and plausible way to eradicate cancers as a novel therapeutic strategy [23]
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